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1.
Persistent reactive oxygen species damage contributes to hypertrophic scar phenotype after wound closure. MedStar authors:
  • Alkhalil, Abdulnaser
  • Carney, Bonnie C
  • Chen, Jason H
  • Moffatt, Lauren T
  • Rummani, Maha
  • Shupp, Jeffrey W
  • Smith, Robert D
Year: 2018
Institution:
  • MedStar Health Research Institute
  • MedStar Washington Hospital Center
Department:
  • Surgery/Burn Services
Form of publication:
  • Conference
All authors:
  • Alkhalil A
  • Carney BC
  • Chen JH
  • Moffatt LT
  • Rosenthal DS
  • Rummani M
  • Shupp JW.
  • Smith RD
Local accession number:
  • B2018529
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2.
Reactive Oxygen Species Scavenging Potential Contributes to Hypertrophic Scar Formation. MedStar authors:
  • Alkhalil, Abdulnaser
  • Carney, Bonnie C
  • Chen, Jason H
  • Kent, Rhett A
  • Moffatt, Lauren T
  • Rummani, Maha
  • Shupp, Jeffrey W
PMID:
  • 31302330
Year: 2019
Citation:
  • Journal of Surgical Research. 244:312-323, 2019 12.
  • Journal of Surgical Research. 244:312-323, 2019 Jul 11.
Institution:
  • MedStar Health Research Institute
  • MedStar Washington Hospital Center
Department:
  • Dermatology
  • Firefighters' Burn and Surgical Research Laboratory
  • Surgery/Burn Services
  • Surgery/Burn Services
Medline publication type:
  • Journal Article
Form of publication:
  • Journal Article
All authors:
  • Alkhalil A, Carney BC, Chen JH, Kent RA, Moffatt LT, Rosenthal DS, Rummani M, Shupp JW
DOI:
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